[0001] This application claims the benefit of Chinese Patent Application No.
201210220465.9, filed with the Chinese Patent Office on June 29, 2012 and entitled "Touch panel,
touch display panel and, touch detection and display method", which is hereby incorporated
by reference in its entirety.
Field of the Invention
[0002] The present invention relates to the field of liquid crystal display panels and particularly
to a touch panel, a touch display panel and a touch detection and display method.
Background of the Invention
[0003] A display terminal with a touch function is increasingly popular, and integration
of an active matrix display panel (e.g., a Liquid Crystal Display (LCD), an Organic
Light Emitting Diode Display(OLED), etc.) with touch sensors becomes an important
issue of research and development. There are on-cell touch screens and in-cell touch
screens, depending on whether the active matrix display panel is integrated with the
touch sensors. An on-cell touch screen is known to have the active matrix display
panel and the touch sensors fabricated respectively in two separate modules and then
packaged together. A drawback of the on-cell touch screen lies in a large thickness
and a high production cost of the entire device into which the touch sensors and the
active matrix display panel are packaged. An in-cell touch screen has touch sensors
integrated into the active matrix display panel to thereby make it possible to reduce
the thickness and weight of the entire device. However, integration of the touch sensors
into the active matrix display panel for the in-cell touch screen may bring some problems,
for example, a parasitic capacitance arising between the two parts, a change in electric
field of liquid crystal cells resulting from additional touch sense electrodes, degraded
performance of devices, a lowered aperture ratio, etc.; and moreover, the touch sensors
of most of existing in-cell touch screens have to be fabricated in an extra process,
thereby increasing production cost. Fabrication of the touch sensors based on the
structure of the active matrix display panel itself can lower the production cost
greatly and further lower the thickness of the touch display panel into which the
both are integrated.
[0004] Fig. 1 illustrates a schematic structural diagram of touch sensors fabricated from
a common electrode layer of a liquid crystal display panel in the related art.
[0005] Referring to Fig. 1, touch sensors are fabricated from a common electrode layer 100
in a liquid crystal display panel integrated with a touch screen in the related art.
The common electrode layer 100 includes a plurality of common electrodes 101 arranged
in a matrix. To detect a touch, the common electrode layer 100 is divided into drive
areas that are spaced apart from each other. The common electrode layer 100 includes
a sense area 103 and several drive area segments 102. When the drive area and the
sense area 103 work, extra lead lines are needed for common electrodes layer 100 to
realize mode shifting. The extra lead lines will increase process complexity and further
increase production cost.
Summary of the Invention
[0006] Embodiments of the present invention provide a touch panel, a touch display panel
and, a touch detection and display method for solving the foregoing problems.
[0007] According to one embodiment of the present invention, a touch panel includes:
an array of pixels including a plurality of sets of scan lines, a plurality of sets
of data lines intersecting orthogonally with the plurality of sets of scan lines,
and a plurality of pixel elements coupled respectively with the plurality of sets
of scan lines and the plurality of sets of data lines, wherein the plurality of sets
of data lines includes a first type of sets and a second type of sets disposed apart
from each other;
a first scan drive circuit electrically connected with the plurality of sets of scan
lines and configured to provide each of the sets of scan lines with a first scan drive
signal sequentially set by set; and
a touch detection circuit electrically connected with the plurality of sets of data
lines and configured to provide the first type of sets of the plurality of sets of
data lines with a touch drive signal and to detect a touch sense signal from the second
type of sets of the plurality of sets of data lines when each set of scan lines receives
the first scan drive signal.
[0008] The plurality of sets of data lines further include a third type of sets, and the
third type of sets is located between the first type of sets and the second type of
sets; or the second type of sets is located between the first type of sets and the
third type of sets; or the first type of sets is located between the second type of
sets and the third type of sets.
[0009] The touch detection circuit applies a fixed potential to the third type of sets of
the plurality of sets of data lines.
[0010] In an embodiment, the number of scan lines in each set of scan lines is the same.
[0011] In an embodiment, the number of data lines in each set of the same type of sets of
data lines is the same.
[0012] The touch panel further includes a control circuit electrically connected with the
first scan drive circuit and the touch detection circuit and configured to coordinate
operating timing between the first scan drive circuit and the touch detection circuit.
[0013] According to another embodiment of the present invention, a touch detection method
of the touch panel includes:
step 1, providing, by a first scan drive circuit, a set of scan lines with the first
scan drive signal and performing step 2;
step 2, when the first scan drive circuit provides the first scan drive signal, providing,
by a touch detection circuit, a first type of sets of a plurality of sets of data
lines with a touch drive signal, and detecting, by the touch detection circuit, the
touch sense signal from a second type of sets of the plurality of sets of data lines,
and performing step 3; and
step 3, providing, by the first scan drive circuit, a next set of scan lines with
the first scan drive signal and performing the step 2, wherein the two sets of scan
lines are adjacent, and the next set of scan lines was not provided with the first
scan drive signal.
[0014] The step 1 further includes: providing, by the first scan drive circuit, the first
set of scan lines with the first scan drive signal and performing the step 2; and
the step 3 further includes: providing, by the first scan drive circuit, the second
set of scan lines with the first scan drive signal and performing the step 2, wherein
the second set of scan lines is adjacent to the first set of scan lines and was not
provided with the first scan drive signal.
[0015] In the step 1, all the scan lines in the first set of scan lines receive the first
scan drive signal at the same time when the first set of scan lines receives the first
scan drive signal.
[0016] According to another embodiment of the present invention, a touch display panel includes:
an array of pixels including a plurality of sets of scan lines, a plurality of sets
of data lines intersecting orthogonally with the plurality of sets of scan lines,
and a plurality of pixel elements coupled respectively with the plurality of sets
of scan lines and the plurality of sets of data lines, wherein the plurality of sets
of data lines includes a first type of sets and a second type of sets disposed apart
from each other;
a first scan drive circuit electrically connected with the plurality of sets of scan
lines and configured to provide each of the sets of scan lines with a first scan drive
signal sequentially set by set; and
a touch detection circuit electrically connected with the plurality of sets of data
lines and configured to provide the first type of sets of the plurality of sets of
data lines with a touch drive signal and to detect a touch sense signal from the second
type of sets of the plurality of sets of data lines when each set of scan lines receives
the first scan drive signal;
a second scan drive circuit electrically connected with the plurality of sets of scan
lines to provide each set of scan lines with a second scan drive signal after the
set of scan lines receives the first scan drive signal; and
a data drive circuit electrically connected with the plurality of sets of data lines
and configured to provide the plurality of sets of data lines with an image data signal
when each set of scan lines receives the second scan drive signal.
[0017] The plurality of sets of data lines further include a third type of sets, and the
third type of sets is located between the first type of sets and the second type of
sets; or the second type of sets is located between the first type of sets and the
third type of sets; or the first type of sets is located between the second type of
sets and the third type of sets.
[0018] The touch detection circuit applies a fixed potential to the third type of sets of
the plurality of sets of data lines.
[0019] Each of the plurality of sets of scan lines includes one or more scan lines; each
of the plurality of sets of data lines includes one or more data lines.
[0020] The number of scan lines in each set of scan lines is the same.
[0021] The number of data lines in each set of the same type of sets of data lines is the
same.
[0022] The first scan drive circuit provides all the scan lines in a set of scan lines with
the first scan drive signal at the same time, and the second scan drive circuit provides
the respective scan lines in each set of scan lines with the second scan drive signal
sequentially row by row after the set of scan lines receive the first scan drive signal
at the same time.
[0023] The touch display panel further includes a control circuit electrically connected
with the first scan drive circuit, the second scan drive circuit, the touch detection
circuit and the data drive circuit to coordinate operating timing among the first
scan drive circuit, the second scan drive circuit, the touch detection circuit and
the data drive circuit.
[0024] The first scan drive circuit and the second scan drive circuit are integrated in
the same circuit.
[0025] The touch display panel further includes a first substrate and a second substrate
opposite to the first substrate, and the array of pixels is arranged on the surface
of the first substrate facing the second substrate.
[0026] In order to solve the foregoing problem, the present invention further provides a
touch detection and display method of the touch display panel, which includes:
step 1, providing, by a first scan drive circuit, a set of scan lines with a first
scan drive signal and performing the step 2;
step 2, when the first scan drive circuit provides the first scan drive signal, applying,
by a touch detection circuit, a touch drive signal to a first type of sets of a plurality
of sets of data lines, and detecting, by the touch detection circuit, a touch sense
signal from a second type of sets of the plurality of sets of data lines and performing
the step 3;
step 3, after the first scan drive circuit provides the first scan drive signal, providing,
by a second scan drive circuit, the set of scan lines with the second scan drive signal
and performing the step 4;
step 4, when the second scan drive circuit provides the second scan drive signal,
providing, by the data drive circuit, a plurality of sets of data lines with an image
data signal and performing the step 5; and
step 5, providing, by the first scan drive circuit, a next set of scan lines with
the first scan drive signal and performing the step 2, wherein the two sets of scan
lines are adjacent, and the next set of scan lines was not provided with the first
scan drive signal.
[0027] The step 1 further includes: providing, by the first scan drive circuit, the first
set of scan lines with the first scan drive signal and performing the step 2; and
the step 5 further includes: providing, by the first scan drive circuit, the second
set of scan lines with the first scan drive signal and performing the step 2, wherein
the second set of scan lines is adjacent to the first set of scan lines and was not
provided with the first scan drive signal.
[0028] In the step 1, the first scan drive circuit provides all the scan lines in the first
set of scan lines with the first scan drive signal at the same time; and in the step
3, the second scan drive circuit provides the respective scan lines in the first set
of scan lines with the second scan drive signal sequentially row by row after the
set of scan lines receive the first scan drive signal at the same time.
[0029] The touch panel, the touch display panel and, the touch detection and display method
according to the present invention are advantageous in that touch sensors are fabricated
from an array of pixels of an active matrix display panel itself, and with the use
of original scan lines and drive lines of the active matrix display panel, a change
in drive signal enables the array of pixels to perform touch detection and graphic
display functions concurrently to thereby avoid extra added circuit components and
lower production cost of the touch display panel.
Brief Description of the Drawings
[0030]
Fig. 1 is a schematic structural diagram of fabrication of touch sensors from a common
electrode layer of a liquid crystal display panel in the related art;
Fig. 2A is a schematic structural diagram of a first embodiment of a touch panel according
to the present invention;
Fig. 2B is a schematic structural diagram of a segment of an array of pixels in an
optional implementation of a second embodiment of a touch panel according to the present
invention;
Fig. 2C a schematic structural diagram of an optional implementation of the second
embodiment of a touch panel according to the present invention;
Fig. 2D a schematic structural diagram of an optional implementation of the second
embodiment of a touch panel according to the present invention;
Fig. 2E a schematic structural diagram of an optional implementation of the second
embodiment of a touch panel according to the present invention;
Fig. 3 is a flow chart of steps in a second embodiment of a touch detection method
of a touch panel according to the present invention;
Fig. 4A is a schematic structural diagram of a third embodiment of a touch display
panel according to the present invention;
Fig. 4B a schematic structural diagram of an optional implementation of the third
embodiment of a touch display panel according to the present invention;
Fig. 4C a schematic structural diagram of an optional implementation of the third
embodiment of a touch display panel according to the present invention;
Fig. 4D a schematic structural diagram of an optional implementation of the third
embodiment of a touch display panel according to the present invention;
Fig. 4E a schematic structural diagram of an optional implementation of the third
embodiment of a touch display panel according to the present invention;
Fig. 5A is a flow chart of steps in a fourth embodiment of a touch detection and display
method of a touch display panel according to the present invention; and
Fig. 5B is a timing diagram of the fourth embodiment of a touch detection and display
method of a touch display panel according to the present invention.
Detailed Description of the Embodiments
[0031] Exemplary embodiments of a touch panel, a touch display panel and, a touch detection
and display method according to the present invention will be described below in details
in connection with the drawings.
First Embodiment
[0032] Fig. 2A illustrates a schematic structural diagram of a touch panel according to
this embodiment.
[0033] This embodiment provides a touch panel including:
[0034] An array of pixels which includes a plurality of sets of scan lines 205, a plurality
of sets of data lines 206 intersecting orthogonally with the plurality of sets of
scan lines 205, and a plurality of pixel elements coupled respectively with the plurality
of sets of scan lines 205 and the plurality of sets of data lines 206, wherein the
plurality of sets of data lines 206 include a first type of sets and a second type
of sets distributed to be spaced apart from each other. Specifically each of the plurality
of pixel elements is arranged at the intersection of a scan line 205 and a data line
206, and each pixel element includes at least one pixel electrode 203 and one pixel
switch 204, and the pixel electrode 203 is coupled respectively with the corresponding
scan line 205 and data line 206 through the pixel switch 204. In this embodiment,
each pixel element includes one pixel electrode 203 and one pixel switch 204, and
each pixel electrode 203 corresponds respectively to one data line 206 and one scan
line 205, and two adjacent pixel electrodes 203 correspond separately to one data
line 206 and one scan line 205 respectively. Typically the pixel switch 204 can be
a Thin Film field effect Transistor (TFT). The pixel electrode 203 being coupled respectively
with the corresponding scan line 205 and data line 206 through the pixel switch 204
particularly means that the pixel electrode 203 is coupled respectively with the corresponding
scan line 205 and data line 206 through the TFT, and the TFT has a gate electronically
connected with the scan line 205, a source electronically connected with the data
line 206 and a drain electronically connected with the pixel electrode 203.
[0035] Particularly two adjacent pixel electrodes 203 corresponding separately to one data
line 206 and one scan line 205 respectively refers to that the pixel electrodes 203
in the same row corresponds to the same gate line but corresponds respectively to
different data lines; and the same column of pixel electrodes 203 corresponds to the
same data line but corresponds respectively to different gate lines.
[0036] Each set of the plurality of sets of scan lines 205 includes one or more scan lines
205; and each set of the plurality of sets of data lines 206 includes one or more
data lines 206.
[0037] The number of scan lines 205 in each set may be the same or different. Preferably
the number of scan lines 205 in each set is the same.
[0038] In an optional implementation, the number of scan lines 205 in each set ranges from
2 to 1000. As illustrated in Fig. 2A, for example, there are two sets of scan lines
205 in total in the array of pixels, and there are two scan lines in each set, where
the first set of scan lines includes two upper scan lines 205, and the second set
of scan lines includes two lower scan lines 205.
[0039] The number of data lines 206 in each set of the same type of sets of data lines 206
is the same or different. Preferably the number of data lines 206 in each set of the
same type of sets of data lines 206 is the same.
[0040] In an optional implementation, the number of data lines 206 in each set ranges from
2 to 1000. For example, the data lines 206 in the array of pixels in Fig. 2A include
four sets, where two sets are the first type of sets and two sets are the second type
of sets distributed to be spaced apart from the first type of sets. Counting from
the left to the right, the first set of the first type of sets of data lines 206 includes
the first and the second data lines 206, and the second set of the first type of sets
of data lines 206 includes the fourth and the fifth data lines 206; and counting from
the left to the right, the first set of the second type of sets of data lines 206
includes the third data lines 206, and the second set of the second type of sets of
data lines 206 includes the sixth data lines 206.
[0041] The touch panel further includes a first scan drive circuit 209 electrically connected
with the plurality of sets of scan lines 205 to provide the respective sets of scan
lines 205 with a first scan drive signal sequentially set by set.
[0042] The touch panel further includes a touch detection circuit 210 electrically connected
with the plurality of sets of data lines 206, and when each set of scan lines 205
receives the first scan drive signal, the touch detection circuit 210 provides the
first type of sets of the plurality of sets of data lines 206 with a touch drive signal
and detects a touch sense signal from the second type of sets of the plurality of
sets of data lines 206.
[0043] "Sequentially set by set" mentioned in this application refers to operation set by
set in a logic order of sets. As illustrated in Fig. 2A, for example, the first scan
drive circuit 209 provides the respective sets of scan lines 205 with a first scan
drive signal sequentially set by set, in other words, firstly the first scan drive
circuit 209 provides the first set of scan lines 205 with the first scan drive signal,
and then the first scan drive circuit 209 provides the second set of scan lines 205
with the first scan drive signal.
[0044] The array of pixels is divided by the first type of sets and the second type of sets
of data lines in combination with the scan lines into four drive areas 201 and four
sense areas 202, where the first drive area 201 includes four pixel electrodes 203
coupled respectively with the first set of scan lines 205 and the first set of the
first type of sets of data lines 206 through the pixel switches 204, the second drive
area 201 includes four pixel electrodes 203 coupled respectively with the first set
of scan lines 205 and the second set of the first type of sets of data lines 206 through
the pixel switches 204, the third drive area 201 includes four pixel electrodes 203
coupled respectively with the second set of scan lines 205 and the first set of the
first type of sets of data lines 206 through the pixel switches 204, and the fourth
drive area 201 includes four pixel electrodes 203 coupled respectively with the second
set of scan lines 205 and the second set of the first type of sets of data lines 206
through the pixel switches 204; and the first sense area 202 includes two pixel electrodes
203 coupled respectively with the first set of scan lines 205 and the first set of
the second type of sets of data lines 206 through the pixel switches 204, the second
sense area 202 includes two pixel electrodes 203 coupled respectively with the first
set of scan lines 205 and the second set of the second type of sets of data lines
206 through the pixel switches 204, the third sense area 202 includes two pixel electrodes
203 coupled respectively with the second set of scan lines 205 and the first set of
the second type of sets of data lines 206 through the pixel switches 204, and the
fourth sense area 202 includes two pixel electrodes 203 coupled respectively with
the second set of scan lines 205 and the second set of the second type of sets of
data lines 206 through the pixel switches 204. The pixel electrodes 203 in the drive
areas 201 function as touch drive electrodes in a touch mode, and the pixel electrodes
203 in the sense areas 202 function as touch sense electrodes in the touch mode. Mutual
capacitances are formed between the pixel electrodes 203 in the drive areas 201 and
the pixel electrodes 203 in the sense areas 202.
[0045] In an optional implementation, the first type of sets are odd sets, and the second
type of sets are even sets. Alternatively, the first type of sets are even sets, and
the second type of sets are odd sets.
[0046] Fig. 2B illustrates a schematic structural diagram of a segment of the array of pixels
in an optional implementation of the touch panel according to this embodiment.
[0047] In an optional implementation, as illustrated in Fig. 2B, each set of the first type
of sets of data lines 206 and the second type of sets of data lines 206 includes three
data lines, and each set of scan lines 205 also includes three scan lines. Fig. 2B
illustrates a segment of the array of pixels, which includes two sets of scan lines
205 (not illustrated), one first type of set of data lines 206 (the first to third
data lines 206 starting from the left) and one second type of set of data lines 206
(the fourth to sixth data lines 206 starting from the left), where each pixel element
includes one TFT switch (not illustrated) and one pixel electrode 203. When the first
drive signal is applied correspondingly to the first set of scan lines 205 and the
second set of scan lines 205 are floating, then all the pixel electrodes 203 corresponding
to the first set of scan lines 205 are turned on, and the pixel electrodes 203 corresponding
to the second set of scan lines 205 are turned off (the turned-off pixel electrodes
not illustrated in Fig. 2B). Then the touch detection circuit applies the touch drive
signal to the first type of set of data lines 206 to thereby apply the touch drive
signal to the drive areas 201. Next the touch detection circuit detects the touch
sense signal from the sense areas 202 through the second type of set of data lines
206. Mutual capacitances are formed between the pixel electrodes 203 in the drive
areas 201 and the pixel electrodes 203 in the sense areas 202 so that a touch action
of a finger or a stylus in the first touch area 207 can be detected by the touch detection
circuit.
[0048] A touch action of the finger or the stylus in the second touch area 208 will also
be detected by the touch detection circuit 210 together with a change in mutual capacitance
between the first type of set of data lines 206 and the second type of set of data
lines 206. This results from significantly smaller mutual capacitances between the
data lines 206 (that is, of areas surrounded by the second set of scan lines 205)
than those between the large-area pixel electrodes 203 (that is, of areas surrounded
by the first set of scan lines 205). Thus the signal of the second touch area 208
can be distinguished from that in the first touch area 207.
[0049] That is, when there are touch actions in both the first touch area 207 and the second
touch area 208, the touch action of the first touch area 207 has a parasitic capacitance
arising between the pixel electrodes in the corresponding drive area or sense area
and the touch object (the finger or the stylus), and the sum of the parasitic capacitances
and the original mutual capacitances (the capacitance between the pixel electrodes
of the drive area and the pixel electrodes of the sense area) is a changed mutual
capacitance of the areas, and this change in mutual capacitance is detected, that
is, the touch action of the touch object (the finger or the stylus) in the first touch
area 207 is detected. The touch action of the second touch area 208 has a parasitic
capacitance arising between the data lines in the corresponding drive area or sense
area and the touch object, and the sum of the parasitic capacitances and the original
mutual capacitances is a changed mutual capacitance of the areas, and this change
in mutual capacitance is also detected, that is, the touch action of the touch object
(the finger or the stylus) in the second touch area 208 is detected. However, since
the scan lines corresponding to the second touch area 208 are floating, the corresponding
thin film transistors are turned off, the corresponding pixel electrodes do not contribute
to the change in mutual capacitance, and only the data lines of the area contribute
to the change in mutual capacitance, but the data lines contribute little to the change
in mutual capacitance, thus the touch action of the first touch area 207 can be distinguished
from that of the second touch area 208 and furthermore the touch action of the second
touch area 208 can be ignored to avoid a misjudgment.
[0050] Fig. 2C is a schematic structural diagram of an optional implementation of the touch
panel according to this embodiment.
[0051] The touch panel illustrated in Fig. 2C includes an array of pixels including a plurality
of sets of scan lines 205, a plurality of sets of data lines 206 intersecting orthogonally
with the plurality of sets of scan lines 205, and a plurality of pixel elements coupled
respectively with the plurality of sets of scan lines 205 and the plurality of sets
of data lines 206, and each pixel element includes one pixel electrode 203 and one
pixel switch 204. The touch panel further includes a first scan drive circuit 209
and a touch detection circuit 210. For a description of the first scan drive circuit
209 and the touch detection circuit 210, a reference can be made to the embodiment
corresponding to Fig. 2A above, and a repeated description thereof will be omitted
here.
[0052] In an optional implementation, as illustrated in Fig. 2C, the array of pixels is
distributed in a dual gate arrangement, that is, the pixel electrodes 203 of the same
row share two scan lines 205, and every two adjacent columns of pixels share one data
line 206. In Fig. 2C, counting from the left to the right, the pixel electrodes 203
in the same row located in an odd column are coupled with one of the scan lines 205
through the pixel switch 204, and the pixel electrodes 203 located in an even column
are coupled with another scan line 205 through the pixel switch 204; and counting
from the left to the right, all the pixel electrodes 203 in the first column and the
second column are coupled with the first data line 206 through the pixel switches
204, all the pixel electrodes 203 in the third column and the fourth column are coupled
with the second data line 206 through the pixel switches 204, and so on.
[0053] In the touch panel illustrated in Fig. 2C, a drive area 201 includes twelve pixel
electrodes 203 coupled respectively with each scan line 205 and three data lines 206
from the left through the pixel switches 204. A sense area 202 includes four pixel
electrodes 203 coupled respectively with each scan line 205 and the fourth data line
206 from the left through the pixel switches 204. For a description of the drive area
201 and the sense area 202, a reference can be made to the embodiment corresponding
to Fig. 2A above, and a repeated description thereof will be omitted here.
[0054] Fig. 2D is a schematic structural diagram of an optional implementation of the touch
panel according to this embodiment.
[0055] Based upon the embodiment corresponding to Fig. 2A, in an optional implementation,
the plurality of sets of data lines further include a third type of sets which are
located between the first type of sets and the second type of sets and to which the
touch detection circuit 210 applies a fixed potential.
[0056] As illustrated in Fig. 2D, the array of pixels is divided by the first type of sets,
the second type of sets and the third type of sets of data lines in combination with
the scan lines into four drive areas 201, four sense areas 202 and four fixed-potential
areas 218. Counting from the left to the right, there are the first to the tenth data
lines illustrated; and counting from the top to the bottom, there are the first to
the fourth scan lines illustrated in total.
[0057] The first set of the first type of sets of data lines 206 includes the first and
the second data lines 206. The first set of the third type of sets of data lines 206
includes the third and the fourth data lines 206. The first set of the second type
of sets of data lines 206 includes the fifth data line 206. The second set of the
first type of sets of data lines 206 includes the sixth and the seventh data lines
206. The second set of the third type of sets of data lines 206 includes the eighth
and the ninth data lines 206. The second set of the second type of sets of data lines
206 includes the tenth data line 206.
[0058] The first set of scan lines 205 includes the first and the second scan lines 205.
The second set of scan lines 205 includes the third and the fourth scan lines 205.
[0059] The first drive area 201 includes four pixel electrodes 203 coupled respectively
with the first set of scan lines 205 and the first set of the first type of sets of
data lines 206 through the pixel switches 204, the second drive area 201 includes
four pixel electrodes 203 coupled respectively with the first set of scan lines 205
and the second set of the first type of sets of data lines 206 through the pixel switches
204, the third drive area 201 includes four pixel electrodes 203 coupled respectively
with the second set of scan lines 205 and the first set of the first type of sets
of data lines 206 through the pixel switches 204, and the fourth drive area 201 includes
four pixel electrodes 203 coupled respectively with the second set of scan lines 205
and the second set of the first type of sets of data lines 206 through the pixel switches
204.
[0060] The first sense area 202 includes two pixel electrodes 203 coupled respectively with
the first set of scan lines 205 and the first set of the second type of sets of data
lines 206 through the pixel switches 204, the second sense area 202 includes two pixel
electrodes 203 coupled respectively with the first set of scan lines 205 and the second
set of the second type of sets of data lines 206 through the pixel switches 204, the
third sense area 202 includes two pixel electrodes 203 coupled respectively with the
second set of scan lines 205 and the first set of the second type of sets of data
lines 206 through the pixel switches 204, and the fourth sense area 202 includes two
pixel electrodes 203 coupled respectively with the second set of scan lines 205 and
the second set of the second type of sets of data lines 206 through the pixel switches
204.
[0061] The first fixed-potential area 218 includes two pixel electrodes 203 coupled respectively
with the first set of scan lines 205 and the first set of the third type of sets of
data lines 206 through the pixel switches 204, the second fixed-potential area 218
includes two pixel electrodes 203 coupled respectively with the first set of scan
lines 205 and the second set of the third type of sets of data lines 206 through the
pixel switches 204, the third fixed-potential area 218 includes two pixel electrodes
203 coupled respectively with the second set of scan lines 205 and the first set of
the third type of sets of data lines 206 through the pixel switches 204, and the fourth
fixed-potential area 218 includes two pixel electrodes 203 coupled respectively with
the second set of scan lines 205 and the second set of the third type of sets of data
lines 206 through the pixel switches 204.
[0062] The pixel electrodes 203 in the drive areas 201 function as touch drive electrodes
in a touch mode; the pixel electrodes 203 in the sense areas 202 function as touch
sense electrodes in the touch mode; and the fixed potential is applied to the pixel
electrodes 203 in the fixed-potential area 218 in the touch mode, and typically the
fixed potential is a grounded potential.
[0063] Fig. 2E is a schematic structural diagram of an optional implementation of the touch
panel according to this embodiment.
[0064] Based upon the embodiment corresponding to Fig. 2A, as illustrated in Fig. 2E, the
plurality of sets of data lines further include a third type of sets, and the second
type of sets are located between the first type of sets and the third type of sets;
and the touch detection circuit 210 applies a fixed potential to the third type of
sets.
[0065] As illustrated in Fig. 2E, the array of pixels is divided by the first type of sets,
the second type of sets and the third type of sets of data lines in combination with
the scan lines into four drive areas 201, four sense areas 202 and four fixed-potential
areas 218. Counting from the left to the right, there are the first to the tenth data
lines illustrated; and counting from the top to the bottom, there are the first to
the fourth scan lines illustrated in total.
[0066] The first set of the first type of sets of data lines 206 includes the first and
the second data lines 206. The first set of the third type of sets of data lines 206
includes the fourth and the fifth data lines 206. The first set of the second type
of sets of data lines 206 includes the third data line 206. The second set of the
first type of sets of data lines 206 includes the sixth and the seventh data lines
206. The second set of the third type of sets of data lines 206 includes the ninth
and the tenth data lines 206. The second set of the second type of sets of data lines
206 includes the eighth data line 206.
[0067] The first set of scan lines 205 includes the first and the second scan lines 205.
The second set of scan lines 205 includes the third and the fourth scan lines 205.
[0068] The first drive area 201 includes four pixel electrodes 203 coupled respectively
with the first set of scan lines 205 and the first set of the first type of sets of
data lines 206 through the pixel switches 204, the second drive area 201 includes
four pixel electrodes 203 coupled respectively with the first set of scan lines 205
and the second set of the first type of sets of data lines 206 through the pixel switches
204, the third drive area 201 includes four pixel electrodes 203 coupled respectively
with the second set of scan lines 205 and the first set of the first type of sets
of data lines 206 through the pixel switches 204, and the fourth drive area 201 includes
four pixel electrodes 203 coupled respectively with the second set of scan lines 205
and the second set of the first type of sets of data lines 206 through the pixel switches
204.
[0069] The first sense area 202 includes two pixel electrodes 203 coupled respectively with
the first set of scan lines 205 and the first set of the second type of sets of data
lines 206 through the pixel switches 204, the second sense area 202 includes two pixel
electrodes 203 coupled respectively with the first set of scan lines 205 and the second
set of the second type of sets of data lines 206 through the pixel switches 204, the
third sense area 202 includes two pixel electrodes 203 coupled respectively with the
second set of scan lines 205 and the first set of the second type of sets of data
lines 206 through the pixel switches 204, and the fourth sense area 202 includes two
pixel electrodes 203 coupled respectively with the second set of scan lines 205 and
the second set of the second type of sets of data lines 206 through the pixel switches
204.
[0070] The first fixed-potential area 218 includes two pixel electrodes 203 coupled respectively
with the first set of scan lines 205 and the first set of the third type of sets of
data lines 206 through the pixel switches 204, the second fixed-potential area 218
includes two pixel electrodes 203 coupled respectively with the first set of scan
lines 205 and the second set of the third type of sets of data lines 206 through the
pixel switches 204, the third fixed-potential area 218 includes two pixel electrodes
203 coupled respectively with the second set of scan lines 205 and the first set of
the third type of sets of data lines 206 through the pixel switches 204, and the fourth
fixed-potential area 218 includes two pixel electrodes 203 coupled respectively with
the second set of scan lines 205 and the second set of the third type of sets of data
lines 206 through the pixel switches 204.
[0071] The pixel electrodes 203 in the drive areas 201 function as touch drive electrodes
in a touch mode; the pixel electrodes 203 in the sense areas 202 function as touch
sense electrodes in the touch mode; and the fixed potential is applied to the pixel
electrodes 203 in the fixed-potential area 218 in the touch mode, and typically the
fixed potential is a grounded potential.
[0072] In another optional implementation of the touch panel according to an embodiment
of the present invention, like the embodiment as illustrated in Fig. 2E, the plurality
of sets of data lines further include a third type of sets, and the first type of
sets are located between the second type of sets and the third type of sets; and the
touch detection circuit 210 applies a fixed potential to the third type of sets. For
a particular implementation thereof, reference can be made to the embodiment illustrated
in Fig. 2E, and a repeated description thereof will be omitted here.
[0073] In an optional implementation, the touch panel further includes a control circuit
(not illustrated) electrically connected with the first scan drive circuit and the
touch detection circuit to coordinate operating timing between the first scan drive
circuit and the touch detection circuit. For a particular operation mode thereof,
reference can be made to a second embodiment.
Second Embodiment
[0074] Fig. 3 illustrates a flow chart of steps in a touch detection method of a touch panel
according to this embodiment.
[0075] This embodiment provides a touch detection method of a touch panel, where an array
of pixels of the touch panel has been disclosed in the first embodiment, and the method
includes the following steps:
[0076] Step S301, the first scan drive circuit provides the first set of scan lines with
the first scan drive signal and performs step S302. At step S301, all the scan lines
in the first set of scan lines 205 receive the first scan drive signal at the same
time when the set of scan lines 205 receives the first scan drive signal.
[0077] Step S302, when the first scan drive circuit provides the first scan drive signal,
the touch detection circuit provides the first type of sets of the plurality of sets
of data lines with the touch drive signal, and the touch detection circuit detects
the touch sense signal from the second type of sets of the plurality of sets of data
lines and performs step S303.
[0078] Furthermore at step S302, the touch detection circuit 210 provides the first type
of sets of the plurality of sets of data lines 206 with the touch drive signal and
applies the touch drive signal to the pixel electrodes 203 in the drive areas 201
through the first type of sets of data lines 206, where the pixel electrodes 203 in
the drive areas 201 function as touch drive electrodes.
[0079] In an optional implementation, at step S302, when the first scan drive circuit provides
the first scan drive signal, the touch detection circuit provides the first type of
sets of the plurality of sets of data lines with the touch drive signal, and at the
same time the touch detection circuit detects the touch sense signal from the second
type of sets of the plurality of sets of data lines.
[0080] In an optional implementation, at step S302, when the first scan drive circuit provides
the first scan drive signal, firstly the touch detection circuit provides the first
type of sets of the plurality of sets of data lines with the touch drive signal, and
then the touch detection circuit detects the touch sense signal from the second type
of sets of the plurality of sets of data lines.
[0081] Furthermore at step S302, the pixel electrodes 203 of the sense areas 202 transmits
the touch sense signal to the second type of sets of data lines 206, and at this time
the pixel electrodes 203 of the sense areas 202 function as touch sense electrodes;
and the touch detection circuit 210 detects the touch sense signal from the second
type of sets of the plurality of sets of data lines 206.
[0082] Step 303, the first scan drive circuit provides the second set of scan lines with
the first scan drive signal and performs the step S302, wherein the second set of
scan lines is adjacent to the first set of scan lines and was not provided with the
first scan drive signal.
[0083] Another touch detection method of a touch panel according to this embodiment includes
the following operations:
[0084] The first scan drive circuit provides a set of scan lines with the first scan drive
signal. In this step, the first scan drive circuit provides all the scan lines 205
in the set of scan lines 205 with the first scan drive signal at the same time.
[0085] When the first scan drive circuit provides the first scan drive signal, the touch
detection circuit provides the first type of sets of the plurality of sets of data
lines with the touch drive signal, and the touch detection circuits detects the touch
sense signal from the second type of sets of the plurality of sets of data lines.
[0086] Then the first scan drive circuit provides a next set of scan lines with the first
scan drive signal, and when the first scan drive circuit provides the first scan drive
signal, the touch detection circuit provides the first type of sets of the plurality
of sets of data lines with the touch drive signal, and the touch detection circuits
detects the touch sense signal from the second type of sets of the plurality of sets
of data lines, wherein the two sets of scan lines are adjacent, and the next set of
scan lines was not provided with the first scan drive signal.
Third Embodiment
[0087] Fig. 4A illustrates a schematic structural diagram of a touch display panel according
to this embodiment.
[0088] This embodiment provides a touch display panel as illustrated in Fig. 4A which includes:
[0089] An array of pixels which includes a plurality of sets of scan lines 205, a plurality
of sets of data lines 206 intersecting orthogonally with the plurality of sets of
scan lines 205, and a plurality of pixel elements coupled respectively with the plurality
of sets of scan lines 205 and the plurality of sets of data lines 206, wherein the
plurality of sets of data lines 206 include a first type of sets and a second type
of sets distributed to be spaced apart from each other. Specifically each of the plurality
of pixel elements is arranged in an area surrounded by two adjacent scan lines 205
and two adjacent data lines 206, where each pixel element includes at least one pixel
electrode 203 and one pixel switch 204, and the pixel electrode 203 is coupled respectively
with the corresponding scan line 205 and data line 206 through the pixel switch 204.
In this embodiment, each pixel element includes one pixel electrode 203 and one pixel
switch 204, and each pixel electrode 203 corresponds respectively to one data line
206 and one scan line 205, and two adjacent pixel electrodes 203 correspond separately
to one data line 206 and one scan line 205 respectively. Typically the pixel switch
204 can be a TFT. The pixel electrode 203 being coupled respectively with the corresponding
scan line 205 and data line 206 through the pixel switch 204 particularly means that
the pixel electrode 203 is coupled respectively with the corresponding scan line 205
and data line 206 through the TFT, and the TFT has a gate electronically connected
with the scan line 205, a source electronically connected with the data line 206 and
a drain electronically connected with the pixel electrode 203.
[0090] Particularly two adjacent pixel electrodes 203 corresponding separately to one data
line 206 and one scan line 205 respectively refers to that the pixel electrodes 203
in the same row corresponds to the same scan line but corresponds respectively to
different data lines; and the same column of pixel electrodes 203 corresponds to the
same data line but corresponds respectively to different scan lines.
[0091] Each set of the plurality of sets of scan lines 205 includes one or more scan lines
205; and each set of the plurality of sets of data lines 206 includes one or more
data lines 206.
[0092] The number of scan lines 205 in each set of scan lines 205 may be the same or different.
Preferably the number of scan lines 205 in each set of scan lines 205 is the same.
[0093] In an optional implementation, the number of scan lines 205 in each set ranges from
2 to 1000. As illustrated in Fig. 4A, for example, there are two sets of scan lines
205 in total in the array of pixels, and there are two scan lines in each set, where
the first set of scan lines includes two upper scan lines 205, and the second set
of scan lines includes two lower scan lines 205.
[0094] The number of data lines 206 in each set of the same type of sets of data lines 206
is the same or different. Preferably the number of data lines 206 in each set of the
same type of sets of data lines 206 is the same.
[0095] In an optional implementation, the number of data lines 206 in each set ranges from
2 to 1000. For example, the data lines 206 in the array of pixels in Fig. 4A include
four sets, where two sets are of the first type of sets and two sets are of the second
type of sets distributed to be spaced apart from the first type of sets. Counting
from the left to the right, the first set of the first type of sets of data lines
206includes the first and the second data lines 206, and the second set of the first
type of sets of data lines 206 includes the fourth and the fifth data lines 206; and
counting from the left to the right, the first set of the second type of sets of data
lines 206 includes the third data lines 206, and the second set of the second type
of sets of data lines 206 includes the sixth data lines 206.
[0096] The touch display panel further includes a first scan drive circuit 209 electrically
connected with the plurality of sets of scan lines 205 to provide the respective sets
of scan lines 205 with a first scan drive signal sequentially set by set.
[0097] The touch display panel also includes a touch detection circuit 210 electrically
connected with the plurality of sets of data lines 206, and when each set of scan
lines 205 receives the first scan drive signal, the touch detection circuit 210 provides
the first type of sets of the plurality of sets of data lines 206 with a touch drive
signal and detects a touch sense signal from the second type of sets of the plurality
of sets of data lines 206.
[0098] The touch display panel also includes a second scan drive circuit 211 electrically
connected with the plurality of sets of scan lines 205 to provide each set of scan
lines 205 with a second scan drive signal after the set of scan lines 205 receives
the first scan drive signal. Specifically the second scan drive circuit 211 provides
the respective scan lines in each set of scan lines 205 with the second scan drive
signal sequentially one by one after the set of scan lines 205 receives the first
scan drive signal; and
[0099] The touch display panel also includes a data drive circuit 212 electrically connected
with the plurality of sets of data lines 206 to provide the plurality of sets of data
lines 206 with an image data signal when each row of scan lines 205 receives the second
scan drive signal.
[0100] Specifically the first scan drive circuit 209 provides all the scan lines in a set
of scan lines with the first scan drive signal at the same time.
[0101] In an embodiment, the first scan drive circuit 209 and the second scan drive circuit
211 are integrated in the same circuit.
[0102] "Sequentially set by set" mentioned in this application refers to operation set by
set in a logic order of sets. As illustrated in Fig. 4A, for example, the first scan
drive circuit 209 provides the respective sets of scan lines 205 with a first scan
drive signal sequentially set by set, in other words, firstly the first scan drive
circuit provides the first set of scan lines 205 with the first scan drive signal,
and then the first scan drive circuit provides the second set of scan lines 205 with
the first scan drive signal.
[0103] The array of pixels is divided by the first type of sets and the second type of sets
of data lines in combination with the scan lines into four drive areas 201 and four
sense areas 202, wherein the first drive area 201 includes four pixel electrodes 203
coupled respectively with the first set of scan lines 205 and the first set of the
first type of sets of data lines 206 through the pixel switches 204, the second drive
area 201 includes four pixel electrodes 203 coupled respectively with the first set
of scan lines 205 and the second set of the first type of sets of data lines 206 through
the pixel switches 204, the third drive area 201 includes four pixel electrodes 203
coupled respectively with the second set of scan lines 205 and the first set of the
first type of sets of data lines 206 through the pixel switches 204, and the fourth
drive area 201 includes four pixel electrodes 203 coupled respectively with the second
set of scan lines 205 and the second set of the first type of sets of data lines 206
through the pixel switches 204; and the first sense area 202 includes two pixel electrodes
203 coupled respectively with the first set of scan lines 205 and the first set of
the second type of sets of data lines 206 through the pixel switches 204, the second
sense area 202 includes two pixel electrodes 203 coupled respectively with the first
set of scan lines 205 and the second set of the second type of sets of data lines
206 through the pixel switches 204, the third sense area 202 includes two pixel electrodes
203 coupled respectively with the second set of scan lines 205 and the first set of
the second type of sets of data lines 206 through the pixel switches 204, and the
fourth sense area 202 includes two pixel electrodes 203 coupled respectively with
the second set of scan lines 205 and the second set of the second type of sets of
data lines 206 through the pixel switches 204. The pixel electrodes 203 in the drive
areas 201 function as touch drive electrodes in a touch mode, and the pixel electrodes
203 in the sense areas 202 function as touch sense electrodes in the touch mode. Mutual
capacitances are formed between the pixel electrodes 203 in the drive areas 201 and
the pixel electrodes 203 in the sense areas 202.
[0104] In an optional implementation, the first type of sets are odd sets, and the second
type of sets are even sets. Alternatively, the first type of sets are even sets, and
the second type of sets are odd sets.
[0105] Fig. 4B illustrates a schematic structural diagram of an optional implementation
of the touch display panel according to this embodiment.
[0106] The touch display panel illustrated in Fig. 4B includes an array of pixels including
a plurality of sets of scan lines 205, a plurality of sets of data lines 206 intersecting
orthogonally with the plurality of sets of scan lines 205, and a plurality of pixel
elements coupled respectively with the plurality of sets of scan lines 205 and the
plurality of sets of data lines 206, and each pixel element includes one pixel electrode
203 and one pixel switch 204. The touch display panel further includes a first scan
drive circuit 209, a touch detection circuit 210, a second scan drive circuit 211
and a data drive circuit 212. For a description of the first scan drive circuit 209,
the touch detection circuit 210, the second scan drive circuit 211 and the data drive
circuit 212, a reference can be made to the embodiment corresponding to Fig. 4A above,
and a repeated description thereof will be omitted here.
[0107] In an optional implementation, as illustrated in Fig. 4B, the array of pixels is
distributed in a dual gate arrangement, that is, the pixel electrodes 203 in the same
row share two scan lines 205, and every two adjacent columns of pixels share one data
line 206. In Fig. 4B, counting from the left to the right, the pixel electrodes 203
in the same row located in an odd column are coupled with one of the scan lines 205
through the pixel switch 204, and the pixel electrodes 203 located in an even column
are coupled with another scan line 205 through the pixel switch 204; and counting
from the left to the right, all the pixel electrodes 203 in the first column and the
second column are coupled with the first data line 206 through the pixel switches
204, all the pixel electrodes 203 in the third column and the fourth column are coupled
with the second data line 206 through the pixel switches 204, and so on. As illustrated
in Fig. 4B, there are further included a first scan drive circuit 209 electrically
connected with the plurality of sets of scan lines 205; a touch detection circuit
210 electrically connected with the plurality of sets of data lines 206; a second
scan drive circuit 211 electrically connected with the plurality of sets of scan lines
205; and a data drive circuit 212 electrically connected with the plurality of sets
of data lines 206.
[0108] In the touch display panel illustrated in Fig. 4B, a drive area 201 includes twelve
pixel electrodes 203 coupled respectively with each scan line 205 and three data lines
206 from the left through the pixel switches 204. A sense area 202 includes four pixel
electrodes 203 coupled respectively with each scan line 205 and the fourth data line
206 from the left through the pixel switches 204. For a description of the drive area
201 and the sense area 202, a reference can be made to the embodiment corresponding
to Fig. 4A above, and a repeated description thereof will be omitted here.
[0109] Fig. 4D is a schematic structural diagram of an optional implementation of the touch
display panel according to this embodiment.
[0110] Based upon the embodiment corresponding to Fig. 4A, in an optional implementation,
the plurality of sets of data lines further include a third type of sets which are
located between the first type of sets and the second type of sets and to which the
touch detection circuit 210 applies a fixed potential.
[0111] As illustrated in Fig. 4D, the array of pixels is divided by the first type of sets,
the second type of sets and the third type of sets of data lines in combination with
the scan lines into four drive areas 201, four sense areas 202 and four fixed-potential
areas 218. Counting from the left to the right, there are the first to the tenth data
lines illustrated; and counting from the top to the bottom, there are the first to
the fourth scan lines illustrated in total.
[0112] The first set of the first type of sets of data lines 206 includes the first and
the second data lines 206. The first set of the third type of sets of data lines 206
includes the third and the fourth data lines 206. The first set of the second type
of sets of data lines 206 includes the fifth data line 206. The second set of the
first type of sets of data lines 206 includes the sixth and the seventh data lines
206. The second set of the third type of sets of data lines 206 includes the eighth
and the ninth data lines 206. The second set of the second type of sets of data lines
206 includes the tenth data line 206.
[0113] The first set of scan lines 205 includes the first and the second scan lines 205.
The second set of scan lines 205 includes the third and the fourth scan lines 205.
[0114] The first drive area 201 includes four pixel electrodes 203 coupled respectively
with the first set of scan lines 205 and the first set of the first type of sets of
data lines 206 through the pixel switches 204, the second drive area 201 includes
four pixel electrodes 203 coupled respectively with the first set of scan lines 205
and the second set of the first type of sets of data lines 206 through the pixel switches
204, the third drive area 201 includes four pixel electrodes 203 coupled respectively
with the second set of scan lines 205 and the first set of the first type of sets
of data lines 206 through the pixel switches 204, and the fourth drive area 201 includes
four pixel electrodes 203 coupled respectively with the second set of scan lines 205
and the second set of the first type of sets of data lines 206 through the pixel switches
204.
[0115] The first sense area 202 includes two pixel electrodes 203 coupled respectively with
the first set of scan lines 205 and the first set of the second type of sets of data
lines 206 through the pixel switches 204, the second sense area 202 includes two pixel
electrodes 203 coupled respectively with the first set of scan lines 205 and the second
set of the second type of sets of data lines 206 through the pixel switches 204, the
third sense area 202 includes two pixel electrodes 203 coupled respectively with the
second set of scan lines 205 and the first set of the second type of sets of data
lines 206 through the pixel switches 204, and the fourth sense area 202 includes two
pixel electrodes 203 coupled respectively with the second set of scan lines 205 and
the second set of the second type of sets of data lines 206 through the pixel switches
204.
[0116] The first fixed-potential area 218 includes two pixel electrodes 203 coupled respectively
with the first set of scan lines 205 and the first set of the third type of sets of
data lines 206 through the pixel switches 204, the second fixed-potential area 218
includes two pixel electrodes 203 coupled respectively with the first set of scan
lines 205 and the second set of the third type of sets of data lines 206 through the
pixel switches 204, the third fixed-potential area 218 includes two pixel electrodes
203 coupled respectively with the second set of scan lines 205 and the first set of
the third type of sets of data lines 206 through the pixel switches 204, and the fourth
fixed-potential area 218 includes two pixel electrodes 203 coupled respectively with
the second set of scan lines 205 and the second set of the third type of sets of data
lines 206 through the pixel switches 204.
[0117] The pixel electrodes 203 in the drive areas 201 function as touch drive electrodes
in a touch mode; the pixel electrodes 203 in the sense areas 202 function as touch
sense electrodes in the touch mode; and the fixed potential is applied to the pixel
electrodes 203 in the fixed-potential area 218 in the touch mode, and typically the
fixed potential is a grounded potential.
[0118] Fig. 4E is a schematic structural diagram of an optional implementation of the touch
display panel according to this embodiment.
[0119] Based upon the embodiment corresponding to Fig. 4A, as illustrated in Fig. 4E, the
plurality of sets of data lines further include a third type of sets, and the second
type of sets are located between the first type of sets and the third type of sets;
and the touch detection circuit 210 applies a fixed potential to the third type of
sets.
[0120] As illustrated in Fig. 4E, the array of pixels is divided by the first type of sets,
the second type of sets and the third type of sets of data lines in combination with
the scan lines into four drive areas 201, four sense areas 202 and four fixed-potential
areas 218. Counting from the left to the right, there are the first to the tenth data
lines illustrated; and counting from the top to the bottom, there are the first to
the fourth scan lines illustrated in total.
[0121] The first set of the first type of sets of data lines 206 includes the first and
the second data lines 206. The first set of the third type of sets of data lines 206
includes the fourth and the fifth data lines 206. The first set of the second type
of sets of data lines 206 includes the third data line 206. The second set of the
first type of sets of data lines 206 includes the sixth and the seventh data lines
206. The second set of the third type of sets of data lines 206 includes the ninth
and the tenth data lines 206. The second set of the second type of sets of data lines
206 includes the eighth data line 206.
[0122] The first set of scan lines 205 includes the first and the second scan lines 205.
The second set of scan lines 205 includes the third and the fourth scan lines 205.
[0123] The first drive area 201 includes four pixel electrodes 203 coupled respectively
with the first set of scan lines 205 and the first set of the first type of sets of
data lines 206 through the pixel switches 204, the second drive area 201 includes
four pixel electrodes 203 coupled respectively with the first set of scan lines 205
and the second set of the first type of sets of data lines 206 through the pixel switches
204, the third drive area 201 includes four pixel electrodes 203 coupled respectively
with the second set of scan lines 205 and the first set of the first type of sets
of data lines 206 through the pixel switches 204, and the fourth drive area 201 includes
four pixel electrodes 203 coupled respectively with the second set of scan lines 205
and the second set of the first type of sets of data lines 206 through the pixel switches
204.
[0124] The first sense area 202 includes two pixel electrodes 203 coupled respectively with
the first set of scan lines 205 and the first set of the second type of sets of data
lines 206 through the pixel switches 204, the second sense area 202 includes two pixel
electrodes 203 coupled respectively with the first set of scan lines 205 and the second
set of the second type of sets of data lines 206 through the pixel switches 204, the
third sense area 202 includes two pixel electrodes 203 coupled respectively with the
second set of scan lines 205 and the first set of the second type of sets of data
lines 206 through the pixel switches 204, and the fourth sense area 202 includes two
pixel electrodes 203 coupled respectively with the second set of scan lines 205 and
the second set of the second type of sets of data lines 206 through the pixel switches
204.
[0125] The first fixed-potential area 218 includes two pixel electrodes 203 coupled respectively
with the first set of scan lines 205 and the first set of the third type of sets of
data lines 206 through the pixel switches 204, the second fixed-potential area 218
includes two pixel electrodes 203 coupled respectively with the first set of scan
lines 205 and the second set of the third type of sets of data lines 206 through the
pixel switches 204, the third fixed-potential area 218 includes two pixel electrodes
203 coupled respectively with the second set of scan lines 205 and the first set of
the third type of sets of data lines 206 through the pixel switches 204, and the fourth
fixed-potential area 218 includes two pixel electrodes 203 coupled respectively with
the second set of scan lines 205 and the second set of the third type of sets of data
lines 206 through the pixel switches 204.
[0126] The pixel electrodes 203 in the drive areas 201 function as touch drive electrodes
in a touch mode; the pixel electrodes 203 in the sense areas 202 function as touch
sense electrodes in the touch mode; and the fixed potential is applied to the pixel
electrodes 203 in the fixed-potential area 218 in the touch mode, and typically the
fixed potential is a grounded potential.
[0127] In another optional implementation of the touch display panel according to an embodiment
of the present invention, like the embodiment as illustrated in Fig. 4E, the plurality
of sets of data lines further include a third type of sets, and the first type of
sets are located between the second type of sets and the third type of sets; and the
touch detection circuit applies a fixed potential to the third type of sets. For a
particular implementation thereof, reference can be made to the embodiment illustrated
in Fig. 2E, and a repeated description thereof will be omitted here.
[0128] In an optional implementation, the touch display panel further includes a control
circuit (not illustrated) electrically connected with the first scan drive circuit
209, the second scan drive circuit 211, the touch detection circuit 210 and the data
drive circuit 212 to coordinate operating timing among the first scan drive circuit
209, the second scan drive circuit 211, the touch detection circuit 210 and the data
drive circuit 212.
[0129] Fig. 4C illustrates a schematic structural diagram of an optional implementation
of the touch display panel according to this embodiment.
[0130] In an optional implementation, the touch display panel includes a first substrate
213, a second substrate 217 opposite to the first substrate 213, an array of pixels
214, a common electrode layer 216 and a liquid crystal layer 215, and the array of
pixels 214 is disposed on the surface of the first substrate 213 facing the second
substrate 217. The common electrode layer 216, the liquid crystal layer 215, the array
of pixels 214 and the first substrate 213 are disposed sequentially on the second
substrate 217. The first substrate 213 may optionally be a color filter (CF) substrate
and CF may be in color or white and black.
[0131] In an optional implementation, this embodiment further provides a segment of the
array of pixels as illustrated in Fig. 2B, where each set of the first type of sets
of data lines 206 and the second type of sets of data lines 206 includes three data
lines, and each set of scan lines 205 also includes three scan lines. Fig. 2B illustrates
a segment of the array of pixels, which includes two sets of scan lines 205 (not illustrated),
one first type of set of data lines 206 (the first to third data lines 206 starting
from the left) and one second type of set of data lines 206 (the fourth to sixth data
lines 206 starting from the left), wherein each pixel element includes one TFT switch
(not illustrated) and one pixel electrode 203. When the first drive signal is applied
correspondingly to the first set of scan lines 205 and the second set of scan lines
205 are floating, then all the pixel electrodes 203 corresponding to the first set
of scan lines 205 are turned on, and the pixel electrodes 203 corresponding to the
second set of scan lines 205 are turned off. Then the touch detection circuit applies
the touch drive signal to the first type of set of data lines 206 to thereby apply
the touch drive signal to the drive areas 201. Next the touch sense circuit detects
the touch sense signal from the sense areas 202 through the second type of set of
data lines 206. Mutual capacitances are formed between the pixel electrodes 203 in
the drive areas 201 and the pixel electrodes 203 in the sense areas 202 so that a
touch action of a finger or a stylus in the first touch area 207 can be detected by
the touch detection circuit. A touch action of the finger or the stylus in the second
touch area 208, together with a change in mutual capacitance between the first type
of sets of data lines 206 and the second type of sets of data lines 206, will also
be detected by the touch detection circuit 210, which results from significantly smaller
mutual capacitances between the data lines 206 (that is, of areas surrounded by the
second sets of scan lines 205) than those between the large-area pixel electrodes
203 (that is, of areas surrounded by the first sets of scan lines 205). Thus, the
signal of the second touch area 208 can be distinguished from that in the first touch
area 207.
Fourth Embodiment
[0132] Fig. 5A illustrates a flow chart of steps in a touch detection and display method
of a touch display panel according to this embodiment.
[0133] This embodiment provides a touch detection and display method of a touch display
panel, which includes the following steps:
[0134] Step S501, the first scan drive circuit provides the first set of scan lines with
the first scan drive signal and performs the step S502. At step S501, all the scan
lines in the first set of scan lines 205 receive the first scan drive signal at the
same time when the set of scan lines 205 receives the first scan drive signal.
[0135] Step S502, when the first scan drive circuit provides the first scan drive signal,
the touch detection circuit applies the touch drive signal to the first type of sets
of the plurality of sets of data lines, and the touch detection circuit detects the
touch sense signal from the second type of sets of the plurality of sets of data lines
and performs step S503.
[0136] Furthermore at step S502, the touch detection circuit 210 provides the first type
of sets of the plurality of sets of data lines 206 with the touch drive signal and
applies the touch drive signal to the pixel electrodes 203 in the drive areas 201
through the first type of sets of data lines 206, where the pixel electrodes 203 in
the drive areas 201 function as touch drive electrodes.
[0137] In an optional implementation, at step S502, when the first scan drive circuit 209
provides the first scan drive signal, the touch detection circuit provides the first
type of sets of the plurality of sets of data lines with the touch drive signal, and
at the same time the touch detection circuit detects the touch sense signal from the
second type of sets of the plurality of sets of data lines.
[0138] In an optional implementation, at step S502, when the first scan drive circuit 209
provides the first scan drive signal, firstly the touch detection circuit provides
the first type of sets of the plurality of sets of data lines with the touch drive
signal, and then the touch detection circuit detects the touch sense signal from the
second type of sets of the plurality of sets of data lines.
[0139] Furthermore at step S502, the pixel electrodes 203 of the sense areas 202 transmits
the touch sense signal to the second type of sets of data lines 206, and at this time
the pixel electrodes 203 of the sense areas 202 function as touch sense electrodes;
and the touch detection circuit 210 detects the touch sense signal from the second
type of sets of the plurality of sets of data lines 206.
[0140] Step S503, after the first scan drive circuit provides the first scan drive signal,
the second scan drive circuit provides the set of scan lines with the second scan
drive signal and performs step S504. In the step S503, all the scan lines 205 in the
set of scan lines 205 receive the second scan drive signal sequentially one by one
when the set of scan lines 205 receives the second scan drive signal.
[0141] Step S504, when the second scan drive circuit provides the second scan drive signal,
the data drive circuit provides the plurality of sets of data lines with the image
data signal and performs step S505.
[0142] In an optional implementation, in the step S504, the data drive circuit 212 can provide
the plurality of sets of data lines with the image data signal at the same time or
separate times.
[0143] Step S505, the first scan drive circuit provides a second set of scan lines with
the first scan drive signal and performs step S502, wherein the second set of scan
lines is adjacent to the first set of scan lines and was not provided with the first
scan drive signal.
[0144] Another touch detection and display method of a touch display panel according to
an embodiment of the present invention includes the following operations:
[0145] The first scan drive circuit provides a set of scan lines with the first scan drive
signal. In this step, the first scan drive circuit provides all the scan lines 205
in the set of scan lines 205 with the first scan drive signal at the same time.
[0146] When the first scan drive circuit provides the first scan drive signal, the touch
detection circuit applies the touch drive signal to the first type of sets of the
plurality of sets of data lines, and the touch detection circuits detects the touch
sense signal from the second type of sets of the plurality of sets of data lines.
[0147] The second scan drive circuit provides the set of scan lines with the second scan
drive signal after the first scan drive circuit provides the set of scan lines with
the first scan drive signal.
[0148] The data drive circuits provides the plurality of sets of data lines with the image
data signal when the second scan drive circuit provides the second scan drive signal.
[0149] Then the first scan drive circuit provides a next set of scan lines with the first
scan drive signal, and when the first scan drive circuit provides the first scan drive
signal, the touch detection circuit applies the touch drive signal to the first type
of sets of the plurality of sets of data lines, and the touch detection circuits detects
the touch sense signal from the second type of sets of the plurality of sets of data
lines, wherein the two sets of scan lines are adjacent, and the next set of scan lines
was not provided with the first scan drive signal.
[0150] Fig. 5B illustrates a timing diagram of a touch detection and display method of a
touch display panel according to this embodiment. When the scan lines 205 receive
the first scan drive signal, the array of pixels is in the touch mode, and the corresponding
pixel electrodes 203 have a relatively active signal, and the signal of the pixel
electrodes 203 appears to oscillate like a sinusoidal curve; and when the scan lines
205 receive the second scan drive signal, the array of pixels is in a display mode,
and the corresponding pixel electrodes 203 have a relatively stable signal, and the
signal of the pixel electrodes 203 appears as a signal at a high potential.
[0151] Evidently those skilled in the art can make various modifications and variations
to the embodiments of the present invention without departing from the spirit and
scope of the embodiments of the present invention. Thus the present invention is also
intended to encompass these modifications and variations to the embodiments thereof
so long as the modifications and variations come into the scope of the claims appended
to the present invention and their equivalents.
1. A touch panel, comprising:
an array of pixels comprising a plurality of sets of scan lines, a plurality of sets
of data lines intersecting orthogonally with the plurality of sets of scan lines,
and a plurality of pixel elements coupled respectively with the plurality of sets
of scan lines and the plurality of sets of data lines, wherein the plurality of sets
of data lines comprises a first type of sets and a second type of sets disposed apart
from each other;
a first scan drive circuit electrically connected with the plurality of sets of scan
lines to provide each set of the plurality of sets of scan lines with a first scan
drive signal sequentially set by set; and
a touch detection circuit electrically connected with the plurality of sets of data
lines and configured to provide the first type of sets of the plurality of sets of
data lines with a touch drive signal and to detect a touch sense signal from the second
type of sets of the plurality of sets of data lines when each set of the plurality
of sets of scan lines receives the first scan drive signal.
2. The touch panel according to claim 1, wherein the plurality of sets of data lines
further comprises a third type of sets, and the third type of sets is located between
the first type of sets and the second type of sets; or the second type of sets is
located between the first type of sets and the third type of sets; or the first type
of sets is located between the second type of sets and the third type of sets.
3. The touch panel according to claim 2, wherein the touch detection circuit applies
a fixed potential to the third type of sets of the plurality of sets of data lines.
4. The touch panel according to claim 1, wherein each set of the plurality of sets of
scan lines comprises one or more scan lines; each set of the plurality of sets of
data lines comprises one or more data lines; and the number of scan lines in each
set of the plurality of sets of scan lines is the same.
5. The touch panel according to claim 1, wherein each set of the plurality of sets of
scan lines comprises one or more scan lines; each set of the plurality of sets of
data lines comprises one or more data lines; and the number of data lines in each
set of the same type of sets of data lines is the same.
6. The touch panel according to claim 1, wherein the touch panel further comprises a
control circuit electrically connected with the first scan drive circuit and the touch
detection circuit, the control circuit configured to coordinate operating timing between
the first scan drive circuit and the touch detection circuit.
7. A touch detection method for a touch panel according to any one of claims 1 to 5,
comprising:
step 1,providing, by a first scan drive circuit, one set of scan lines with a first
scan drive signal and performing step 2;
step 2, when the first scan drive circuit provides the first scan drive signal, providing,
by a touch detection circuit, a first type of sets of a plurality of sets of data
lines with a touch drive signal, and detecting, by the touch detection circuit, a
touch sense signal from a second type of sets of the plurality of sets of data lines,
and performing step 3; and
step 3, providing, by the first scan drive circuit, a next set of scan lines with
the first scan drive signal and performing the step 2, wherein the two sets of scan
lines are adjacent, and the next set of scan lines was not provided with the first
scan drive signal.
8. The method according to claim 7, wherein:
the step 1 further comprises: providing, by the first scan drive circuit, a first
set of scan lines with the first scan drive signal and performing the step 2; and
the step 3 further comprises: providing, by the first scan drive circuit, a second
set of scan lines with the first scan drive signal and performing the step 2, wherein
the second set of scan lines is adjacent to the first set of scan lines and was not
provided with the first scan drive signal.
9. The method according to claim 8, wherein all scan lines in the first set of scan lines
receive the first scan drive signal at the same time when the first set of scan lines
receives the first scan drive signal.
10. A touch display panel, comprising:
an array of pixels comprising a plurality of sets of scan lines, a plurality of sets
of data lines intersecting orthogonally with the plurality of sets of scan lines,
and a plurality of pixel elements coupled respectively with the plurality of sets
of scan lines and the plurality of sets of data lines, wherein the plurality of sets
of data lines comprises a first type of sets and a second type of sets arranged apart
from each other;
a first scan drive circuit electrically connected with the plurality of sets of scan
lines and configured to provide each set of the plurality of sets of scan lines with
a first scan drive signal sequentially set by set; and
a touch detection circuit electrically connected with the plurality of sets of data
lines and configured to provide the first type of sets of the plurality of sets of
data lines with a touch drive signal and to detect a touch sense signal from the second
type of sets of the plurality of sets of data lines when each set of scan lines receives
the first scan drive signal;
a second scan drive circuit electrically connected with the plurality of sets of scan
lines to provide each set of scan lines with a second scan drive signal after each
set of scan lines receives the first scan drive signal; and
a data drive circuit electrically connected with the plurality of sets of data lines
to provide the plurality of sets of data lines with an image data signal after each
row of scan lines receives the second scan drive signal.
11. The touch display panel according to claim 10, wherein the plurality of sets of data
lines further comprises a third type of sets, and the third type of sets is located
between the first type of sets and the second type of sets; or the second type of
sets is located between the first type of sets and the third type of sets; or the
first type of sets is located between the second type of sets and the third type of
sets.
12. The touch display panel according to claim 11, wherein the touch detection circuit
applies a fixed potential to the third type of sets of the plurality of sets of data
lines.
13. The touch display panel according to claim 10, wherein each set of the plurality of
sets of scan lines comprises one or more scan lines; each set of the plurality of
sets of data lines comprises one or more data lines; and the number of scan lines
in each set of scan lines is the same.
14. The touch display panel according to claim 10, wherein each set of the plurality of
sets of data lines comprises one or more scan lines; each set of the plurality of
sets of data lines comprises one or more data lines; and the number of data lines
in each set of the same type of sets of data lines is the same.
15. The touch display panel according to claim 10, wherein the first scan drive circuit
provides each scan line in a set of scan lines with the first scan drive signal at
the same time, and the second scan drive circuit provides each scan line in the set
of scan lines with the second scan drive signal sequentially row by row after each
set of scan lines receive the first scan drive signal at the same time.
16. The touch display panel according to claim 10, wherein the touch display panel further
comprises a control circuit electrically connected with the first scan drive circuit,
the second scan drive circuit, the touch detection circuit and the data drive circuit,
the control circuit configured to coordinate operating timing among the first scan
drive circuit, the second scan drive circuit, the touch detection circuit and the
data drive circuit.
17. A touch detection and display method of the touch display panel according to any one
of claims 10 to 16, comprising:
step 1, providing, by a first scan drive circuit, one set of scan lines with a first
scan drive signal and performing step 2;
step 2, when the first scan drive circuit provides the first scan drive signal, applying,
by a touch detection circuit, a touch drive signal to a first type of sets of a plurality
of sets of data lines, and detecting, by the touch detection circuit, a touch sense
signal from a second type of sets of the plurality of sets of data lines and performing
step 3;
step 3, after the first scan drive circuit provides the first scan drive signal, providing,
by a second scan drive circuit, a second set of scan lines with a second scan drive
signal and performing step 4;
step 4, when the second scan drive circuit provides the second scan drive signal,
providing, by a data drive circuit, the plurality of sets of data lines with an image
data signal and performing step 5; and
step 5, providing, by the first scan drive circuit, a next set of scan lines with
the first scan drive signal and performing the step 2, wherein the two sets of scan
lines are adjacent, and the next set of scan lines was not provided with the first
scan drive signal.
18. The method according to claim 17, wherein:
the step 1 further comprises: providing, by the first scan drive circuit, the first
set of scan lines with the first scan drive signal and performing the step 2; and
the step 5 further comprises: providing, by the first scan drive circuit, the second
set of scan lines with the first scan drive signal and performing the step 2, wherein
the second set of scan lines is adjacent to the first set of scan lines and was not
provided with the first scan drive signal.
19. The method according to claim 18, wherein in the step 1, the first scan drive circuit
provides each scan line in the first set of scan lines with the first scan drive signal
at the same time; and in the step 3, the second scan drive circuit provides each scan
line in the first set of scan lines with the second scan drive signal sequentially
row by row after the first set of scan lines receive the first scan drive signal at
the same time.